Preparation and Characterization of Cyanide-Bridged Molecular Clusters and Extended Networks Using the Building-Block Approach

Karadas, Ferdi

2009 December 1900

The cyanide ligand has frequently been used to prepare clusters with novel magnetic properties due to its ability to provide an efficient pathway for superexchange between metal centers that are bound in an end-to-end fashion. One of the common synthetic approaches in this chemistry is to design suitable cyanide containing precursors and then to react such building blocks with metal complexes consisting of accessible sites. The triphos ligand (triphos: 1,1,1-tris(diphenylphosphinomethyl)ethane) has been employed in this vein to prepare metal complexes, one of which is a five coordinate paramagnetic complex (S = 1/2) with a square pyramidal metal center, [CoII(triphos)(CN)2]. A family of molecular squares, [{MIICl2}2{CoII(triphos)(CN)2}2] (M= Mn (2), Fe (3), Co (4), Ni (5), and Zn (6)), has been synthesized by the reaction of CoII(triphos)(CN)2 and MCl2 (M= Mn, Co, Ni, Zn) or Fe4Cl8(THF)6 in CH2Cl2/EtOH mixture. A series of cyanide-bridged trinuclear complexes, {[Co(triphos)(CN)2]2 [M(MeOH)4]}(ClO4)2 ( M = Mn (7), Fe (8), Co (9), and Ni (10)) and tetranuclear complexes, {[Co(triphos)(CN)2]2[M(MeOH)4]2}(ClO4)4 ([Co2M2] M = Mn (11) and Ni (12)) have been synthesized in a similar fashion by the reaction of CoII(triphos)(CN)2 and M(ClO4)2.6H2O (M= Mn, Fe, Co, Ni) in methanol. The trinuclear compounds (7-9), and tetranuclear complexes (2-6, 11, 12), are characterized by antiferromagnetic coupling between metal centers while magnetic behavior of 10 indicates the presence of ferromagnetic interactions between the paramagnetic metal centers. Interactions between magnetic orbitals of Co(II) and M(II) ions were also investigated by means of the density functional theoretical (DFT) calculations. Another triphos containing building block, [(triphos)Re(CN)3] anion (13), has been employed to prepare derivatives of a cubic SMM cluster with four octahedral Re(II) ions and four tetrahedral Mn(II) sites bridging through cyanide ligand. The reactions of Re(II) precursor with MnI2 and solvated Mn(II) ions resulting in derivatives of Re4Mn4 cube with different ligands attached to the Mn center other than the chloride atom were reported. Our efforts on linking these cubes using organo cyanide ligands such as dicyanamide (dca) and 7,7,8,8-tetracyanoquinodimethane (TCNQ) to form extended networks were also discussed.

rhenium

cyanide

organometallic

magnetism

smm

single molecule magnetism

tcnq

triphos

capping ligand

transition metal ions

Tuning the Properties of Molecular Magnets and Conductors Based on Lanthanide and Transition Metal Ions Bridged by TCNQ Derivatives or Cyanometallate Ligands by Varying the Dimensionality of the Structure and Metal Ion Identity

Lopez Cruz, Nazario

2010 May 1900

Research in the fields of molecular conductors and magnets over the past four decades has involved collaborative efforts of chemists and physicists whose common goal is to design useful materials composed of molecular building blocks. Of particular interest are materials whose properties can be tuned by electronic or steric changes in the molecular sub-units. The research on TCNQ derivatives described in this thesis was inspired by the observation that, although a vast amount of research has been directed at understanding binary M(TCNQ•-) materials, analogous compounds based on substituted TCNQ acceptors are surprisingly scarce. Single crystals of a new structure type for the M+(TCNQ)•- binary family were isolated from reactions of two dihalogenated TCNQ derivatives with Cu(I) ions, namely Cu(TCNQX2) (X = Cl, Br). The new 3-D compound Cu(TCNQCl2) exhibits the highest conductivity of the M+(TCNQ)•- series to date, despite the greater separation of TCNQCl2 units as compared to other derivatives. Compounds of lower dimensionality were also obtained, namely the 2-D Cu(TCNQBr2)(CH3CN) and 1-D Cu(TCNQI2)(CH3CN)2 phases. Several 2p-3d heterospin molecular magnets were also synthesized. For example a “magnetic sponge” material based on a 2-D hexagonal framework of composition {[Mn2(TCNQF4)(CH3OH)7.5(H2O)0.5]-(TCNQF4)2•7.5CH3OH}∞, as well as molecular magnets based on first row metal ions and TCNQF4 ligands of composition MII(TCNQF4)-•(TCNQF42-)0.5(CH3CN) (M = Mn, Co) were prepared. In addition, unprecedented isostructural 2-D frameworks based on combinations of first row metal ions with TCNQBr2 radicals of composition [M(TCNQBr2)2(H2O)2]∞ (M = Mn, Zn) were synthesized. Lanthanide chemistry is also described in this dissertation. A series of mononuclear Ln-TCNQF4 heterospin complexes of composition {MIII[TCNQF4]2[H2O]x}(TCNQF4)(3H2O) (M = La, Pr, Nd, Sm, Eu, Gd, Dy, Ho, Er and Yb) was also obtained which exhibit remarkable properties. In this family of compounds there exists an unprecedented subtle interplay between single molecule magnetic behavior and phonon bottleneck effect behavior for the Tb analogue. Magnetic ordering was observed for the Sm analogue. A homologous series of 1-D materials based on alternating lanthanide ions and hexacyanometallates of formula {[Ln(tptz)(H2O)4Fe(CN)6]•8H2O}∞ (Ln = Pr, Nd, Sm, Eu, Gd, Tb) was obtained and a detailed magnetic study provided incontrovertible evidence that the SmIII-[FeIII(CN)6]3- compound exhibits ferromagnetic and not antiferromagnetic coupling as had been reported for related 1-D chains.

Molecular magnets

Molecular conductors

Lanthanide ions

Transition metal ions

Organic radicals

TCNQ derivatives

Cyanometallate Ligands

Atomic and nuclear interference phenomena and their applications

Kuznetsova, Yelena Anatolyevna

29 August 2005

In this work, interference and coherence phenomena, appearing in atomic and molecular ensembles interacting with coherent light sources, as electromagnetically induced transparency (EIT), coherent population trapping (CPT), and slow group velocity of light are investigated. The goal of the project is to make the steps towards various applications of these phenomena, first, by studying them in solid media (which are the most advantageous for applications), second, by suggesting some novel applications such as CPT-based plasma diagnostics, and realization of new types of solid-state lasers (based on suppression of excited-state absorption via EIT). The third goal of the project is extension of coherence and interference effects well-known in optics to the gamma-ray range of frequencies and, correspondingly, from atomic to nuclear transitions. A particular technique of chirped pulse compression applied to M??ossbauer transitions is considered and the possibility of compression of M??ossbauer radiation into ultrashort gamma-ray pulses is analyzed. The theoretical treatment of the interference and coherence effects is based on the semiclassical description of atom-light interaction, which is sufficient for correct analysis of the phenomena considered here. Coherent media are considered in two-, three-, and four-level approximations while their interaction with light is studied both analytically and numerically using the Maxwell-Bloch set of equations.

electromagnetically induced transparency

coherent population trapping

rare-earth and transition metal ions

excited-state absorption

Mossbauer spectroscopy

Transition-metal ions in II-VI semiconductors ZnSe and ZnTe /

Luo, Ming,

January 2006

Thesis (Ph. D.)--West Virginia University, 2006. / Title from document title page. Document formatted into pages; contains xiv, 141 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 135-141).

Resorcinarene-Based Cavitands: From Structural Design and Synthesis to Separations Applications

Li, Na

18 March 2013

Resorcinarenes are cyclic tetramers that are synthesized by the condensation of resorcinol and various aldehydes. The upper and lower rims can be modified with substituents that provide specific selectivity and other chemical features. In this work, resorcinarene-based macrocyclic ligands with specific selectivities have been designed, synthesized and applied to chiral amine discrimination and transition metal ion separations.These resorcinarenes fall into two categories. In the first type, the upper rims of resorcinarenes were modified with amino acid groups, including chiral alanine groups. The lower rims were modified with --CH3, or --C11H23 groups. The structures were studied by nuclear magnetic resonance (NMR), mass spectrometry (MS), dynamic light scattering (DLS), and sustained off-resonance irradiation collision induced dissociation (SORI-CID) techniques in Fourier transform ion cyclotron resonance mass spectrometry (FTICR-MS). The binding strength between the resorcinarenes with amines was studied by 1H NMR titration. Among these new resorcinarenes, the chiral alanine undecyl resorcinarenes acid (AUA) showed chiral discrimination among chiral secondary amines. The AUA ligands were adsorbed onto 55% cross-linked styrene-divinylbenzene resin and used as cation-exchangers in ion chromatography (IC) for transition metal ion separations. The AUA IC column showed selectivity for Cu2+ when no chelating eluent was used in the eluent, a selectivity which was not observed with a commercial column containing standard cation-exchangers. Six metal ions (Cu2+, Mn2+, Co2+, Ni2+, Cd2+, and Zn2+) were separated on the AUA column within a reasonable time with a simple oxalic acid gradient eluent. The second type of resorcinarene-based ligand, cyclenbowl, contains four cyclen units on the upper rim and four --C11H23 chains on the lower rim. The column packed with cyclenbowl adsorbed onto polystyrene showed selectivity for Cu2+ over five other transition metal ions including Mn2+, Co2+, Ni2+, Cd2+, and Zn2+ ions. The preconcentration of Cu2+ at the parts per billion level from a high concentration matrix of Mn2+, Co2+, Ni2+, Cd2+, and Zn2+ ions was achieved using HNO3 eluent. Recovery of Cu2+ was greater than 98%. Furthermore, the other five transition metal ions were well separated on the cyclenbowl column with an oxalic acid eluent gradient.

resorcinarene

chiral recognition

ion chromatography

selectivity

transition metal ions

preconcentration

macrocyclic ligands

separations

Biochemistry

Chemistry

Electron spin dynamics in quantum dots, and the roles of charge transfer excited states in diluted magnetic semiconductors /

Liu, William K.

January 2007

Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 114-127).

High-Pressure Synthesis and Properties of Novel Perovskite Oxides / 新規ペロブスカイト酸化物の高圧合成と物性

Akizuki, Yasuhide

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第18995号 / 工博第4037号 / 新制||工||1621(附属図書館) / 31946 / 京都大学大学院工学研究科材料化学専攻 / (主査)教授 田中 勝久, 教授 平尾 一之, 教授 三浦 清貴 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

High-Pressure Synthesis

A-site ordered perovskite oxide

12-coordinated transition metal ions

Rattling

Mixed valence state

500

Propriedades luminescentes do SrGa2O4 dopado com íons de Ni2+ / Luminescent properties of SrGa2O4 doped with Ni2+ ions

Jéssica Furtado Guimarães

15 March 2013

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / O objetivo deste trabalho é a síntese e investigação estrutural e óptica de amostras SrGa2O4 dopados com 1% de íons Ni2+. Estas amostras foram sintetizados por reação do estado sólido convencional, utilizando como materiais de partida de alta pureza Ga2O3, SrCO3 e NiO em quantidades estequiométricas. As amostras foram caracterizadas estruturalmente pelo método de difração de raios - X( XRD ) e as medições de difração mostraram que as amostras têm uma única fase monoclínica. Os padrões de XRD também foram refinados pelo método de Rietveld, que permitiu a determinação dos parâmetros de célula unitária. A Caracterização óptica das amostras puras e dopadas SrGa2O4 foram realizadas as medições a partir de fotoluminescência, de excitação e de absorção fotoacústica, à temperatura ambiente. Os espectros de emissão mostraram três bandas de emissão localizadas em 557 nm, 661 nm e 844 nm e foram identificadas essas bandas, respectivamente, com as seguintes transições eletrônicas :1T2 (1D) → 3A2 (3F), 3T1 (3F)→ 3A2 (3F) e 1T2 (1D) → 3T2 (3F). Os espectros de excitação mostraram seis bandas de absorção associadas às transições electrônicas do nível 3A2 (3F) para o 3T1 (3P) , T1 (3P), 1A1 (1G), 1T2 (1D), 3T1 (3F), 1E (1D) e 1T2, 1E (1G). Medidas de absorção fotoacústica também foram realizados com o fim de verificar as transições ópticas observadas nos espectros de excitação e de identificar novas bandas de absorção óptica. Os resultados demonstraram que os íons de Ni2+ ocupam dois locais octaédricos diferentes na amostra SrGa2O4 dopado. A partir das transições ópticas observadas nos espectros de excitação e fotoacústica, determinou-se o parâmetro de cristal de campo, dq, e parâmetros Racah, B e C. A proporção Dq / B ≈ 1.2 para ambos os locais são típicos para Ni2+ íons inseridos em redes de óxido e em coordenação octaédrica. / The aim of this work is the synthesis and structural and optical investigation of SrGa2O4 samples doped with 1% of Ni2+ ions. These samples were synthesized by conventional solid-state reaction using as starting materials high purity SrCO3, Ga2O3 and NiO in stoichiometric quantities. Samples were structurally characterized by X-ray diffraction (XRD) method and the diffraction measurements showed that the samples have a single monoclinic phase. The XRD patterns were also refined by the Rietveld method which allowed the determination of the unit cell parameters. Optical characterization of the pure and doped SrGa2O4 samples were performed from photoluminescence, excitation and photoacoustic absorption measurements at room temperature. Emission spectra showed three emission bands localized at 557 nm, 661 nm and 844 nm and these bands were identified, respectively, with the following electronic transitions: 1T2 (1D) → 3A2 (3F), 3T1 (3F)→ 3A2 (3F) e 1T2 (1D) → 3T1 (3F). Excitation spectra showed six absorption bands associated to the electronic transitions from the level 3A2 (3F) to the 3T1 (3P), 1A1 (1G), 1T2 (1D), 3T1 (3F), 1E (1D) e 1T2, 1E (1G) levels. Photoacoustic absorption measurements were also carried out in order to verify the optical transitions observed in the excitation spectra and to identify new optical absorption bands. The results showed that Ni2+ ions occupy two different octahedral sites in the SrGa2O4 doped sample. From the optical transitions observed in the excitation and photoacoustic spectra, we determined the crystal-field parameter, Dq, and Racah parameters, B and C. The ratio Dq/B ≈ 1.2 for both sites are typical for Ni2+ ions inserted in oxide lattices and in octahedral coordination.

Íons Metais de Transição

Fotoluminescência

Espectroscopia fotoacústica

Campo cristalino

Fósforos

Photoluminescence

Transition Metal Ions

Photoacoustic spectroscopy

Crystal-field. Phosphors

FISICA DA MATERIA CONDENSADA

Antioxidant mechanisms of ascorbate and (R)-α-lipoic acid in aging and transition metal ion-mediated oxidative stress

Shu, Jung Hyuk

15 July 2003

Oxidative stress is the major driving force behind the aging process and many age-related diseases. However, direct experimental evidence of whether antioxidants, such as ascorbate (AA) and lipoic acid (LA) can slow the progression of aging process and/or reduce risks of developing degenerative disease is largely absent. This suggests a better understanding of the precise mechanism of how dietary micronutrient affect parameters of involved in cellular redox balance and aging are warranted. In this dissertation, young and old rats were used as our model to understand potential pro-oxidant events that contribute to increases in oxidative stress in various tissues and how antioxidants such as ascorbate and lipoic acid influence these events. Our major findings are that the age-related impairment of mitochondria and increased deposition of iron contribute significantly to heighten levels of oxidative stress, as evidenced by the resultant increases in the rates of oxidant appearance and in the levels of oxidative damage to DNA, lipids and proteins. We find that AA and LA strongly protected against transition metal-ion dependent increases in oxidative stress. AA effectively inhibited transition metal-mediated lipide peroxidation in human plasma. LA in its reduced form effectively binds iron and copper in a redox inactive manner and reversed chronically elevated levels of iron in the brain without removing enzyme bound transition metal ions. LA also significantly attenuated the age-related increase in oxidative stress associated with mitochondrial decay in the heart, as evidenced by the improvements in AA levels and glutathione redox status. The declines in tissue GSH levels in aged rats were strongly associated with the diminished γ-GCL activity (in parallel with decreased expression of the catalytic and modulatory subunits), and lowered Nrf2 expression and binding to ARE sequence in rat liver. Remarkably, all these events were effectively reversed by the administration of LA, modulating the parameters to return to the observed in young animals. The implications of this work open new avenues not only for further understanding of the aging process but also for possible strategies in its modulation by the micronutrients. / Graduation date: 2004

Oxidative stress -- Prevention

Vitamin C -- Physiological effect

Lipoic acid -- Physiological effect

Aging -- Prevention

Longevity -- Nutritional aspects

Propriedades luminescentes do SrGa2O4 dopado com íons de Ni2+ / Luminescent properties of SrGa2O4 doped with Ni2+ ions

Jéssica Furtado Guimarães

15 March 2013

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / O objetivo deste trabalho é a síntese e investigação estrutural e óptica de amostras SrGa2O4 dopados com 1% de íons Ni2+. Estas amostras foram sintetizados por reação do estado sólido convencional, utilizando como materiais de partida de alta pureza Ga2O3, SrCO3 e NiO em quantidades estequiométricas. As amostras foram caracterizadas estruturalmente pelo método de difração de raios - X( XRD ) e as medições de difração mostraram que as amostras têm uma única fase monoclínica. Os padrões de XRD também foram refinados pelo método de Rietveld, que permitiu a determinação dos parâmetros de célula unitária. A Caracterização óptica das amostras puras e dopadas SrGa2O4 foram realizadas as medições a partir de fotoluminescência, de excitação e de absorção fotoacústica, à temperatura ambiente. Os espectros de emissão mostraram três bandas de emissão localizadas em 557 nm, 661 nm e 844 nm e foram identificadas essas bandas, respectivamente, com as seguintes transições eletrônicas :1T2 (1D) → 3A2 (3F), 3T1 (3F)→ 3A2 (3F) e 1T2 (1D) → 3T2 (3F). Os espectros de excitação mostraram seis bandas de absorção associadas às transições electrônicas do nível 3A2 (3F) para o 3T1 (3P) , T1 (3P), 1A1 (1G), 1T2 (1D), 3T1 (3F), 1E (1D) e 1T2, 1E (1G). Medidas de absorção fotoacústica também foram realizados com o fim de verificar as transições ópticas observadas nos espectros de excitação e de identificar novas bandas de absorção óptica. Os resultados demonstraram que os íons de Ni2+ ocupam dois locais octaédricos diferentes na amostra SrGa2O4 dopado. A partir das transições ópticas observadas nos espectros de excitação e fotoacústica, determinou-se o parâmetro de cristal de campo, dq, e parâmetros Racah, B e C. A proporção Dq / B ≈ 1.2 para ambos os locais são típicos para Ni2+ íons inseridos em redes de óxido e em coordenação octaédrica. / The aim of this work is the synthesis and structural and optical investigation of SrGa2O4 samples doped with 1% of Ni2+ ions. These samples were synthesized by conventional solid-state reaction using as starting materials high purity SrCO3, Ga2O3 and NiO in stoichiometric quantities. Samples were structurally characterized by X-ray diffraction (XRD) method and the diffraction measurements showed that the samples have a single monoclinic phase. The XRD patterns were also refined by the Rietveld method which allowed the determination of the unit cell parameters. Optical characterization of the pure and doped SrGa2O4 samples were performed from photoluminescence, excitation and photoacoustic absorption measurements at room temperature. Emission spectra showed three emission bands localized at 557 nm, 661 nm and 844 nm and these bands were identified, respectively, with the following electronic transitions: 1T2 (1D) → 3A2 (3F), 3T1 (3F)→ 3A2 (3F) e 1T2 (1D) → 3T1 (3F). Excitation spectra showed six absorption bands associated to the electronic transitions from the level 3A2 (3F) to the 3T1 (3P), 1A1 (1G), 1T2 (1D), 3T1 (3F), 1E (1D) e 1T2, 1E (1G) levels. Photoacoustic absorption measurements were also carried out in order to verify the optical transitions observed in the excitation spectra and to identify new optical absorption bands. The results showed that Ni2+ ions occupy two different octahedral sites in the SrGa2O4 doped sample. From the optical transitions observed in the excitation and photoacoustic spectra, we determined the crystal-field parameter, Dq, and Racah parameters, B and C. The ratio Dq/B ≈ 1.2 for both sites are typical for Ni2+ ions inserted in oxide lattices and in octahedral coordination.

Íons Metais de Transição

Fotoluminescência

Espectroscopia fotoacústica

Campo cristalino

Fósforos

Photoluminescence

Transition Metal Ions

Photoacoustic spectroscopy

Crystal-field. Phosphors

FISICA DA MATERIA CONDENSADA